Difference between revisions of "IMX6-CycloneV interface description"

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=== Qsys (Quartus) : Avalon-MM Cyclone V Hard IP for PCI Express configuration (CvP)===
 
=== Qsys (Quartus) : Avalon-MM Cyclone V Hard IP for PCI Express configuration (CvP)===
  
{{Note| The example project described above can be downloaded [http://www.armadeus.com/_downloads/apf6/hardware/apf6_sp_cvp_example.zip here].}}
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{{Note| The example project described above can be downloaded [http://www.armadeus.com/_downloads/apf6_SP/hardware/apf6_sp_cvp_example.zip here].}}
  
 
3 Qsys components are required to use PCIe on apf6sp with configuration via PCIe:
 
3 Qsys components are required to use PCIe on apf6sp with configuration via PCIe:

Revision as of 10:33, 29 June 2015


Introduction

This article describe the bus interface configuration to communicate between i.MX6 processor and CycloneV FPGA. In i.MX6, the bus used to make communication with the FPGA is the PCI express.

PCIe

PCIe used to do the communication between i.MX6 and CycloneV is a Gen1 with one lane. By defaut, Armadeus recommend to use the quartus ip-core Cyclone V Avalon-MM Interface for PCIe.

Simplified view

figure 1 - i.MX6-PCIe bus description

Figure 1 is a simplified view of APF6 schematics, signals are :

  • PCIE_CLK: 125Mhz differential pcie clock (PCIE_CLKN and PCIE_CLKP).
  • PCIE_RX: Differential receive pcie signal lane0 (PCIE_RXN and PCIE_RXP).
  • PCIE_TX: Differential transmit pcie signal lane0(PCIE_TXN and PCIE_TXP).
  • npor: set to Vcc.
  • nperst: set to vcc.
  • coreclkout: 125Mhz (by default) clock generated by quartus hard PCIe ip-core, used to clock design by defaut.

Qsys (Quartus) : Avalon-MM Cyclone V Hard IP for PCI Express configuration (CvP)

Note Note: The example project described above can be downloaded here.


3 Qsys components are required to use PCIe on apf6sp with configuration via PCIe:

  • Avalon-MM Cyclone V Hard IP for PCI Express : The hard ip for PCIe
  • Altera PCIe Reconfig Driver
  • Transceiver Reconfiguration Controller

Avalon-MM Cyclone V Hard IP for PCI Express

To use the Altera IP on the APF6_SP configure it as following :

  • Number of lanes : x1
  • Reference clock frequency : 125Mhz
  • Enable configuration via the PCIe link
  • BAR0
    • Type: 32-bit non-prefetchable memory
  • Vendor ID: 0x00001172
  • Device ID: 0x0000e001
  • Class Code: 0x00001300: there is a bug in quartus, the actual class code is here 13
  • Maximum payload : 128 bytes:PCIe i.MX6's rootcomplex support only 128bytes payload maximum
  • Size of address pages: 4 KByte - 12 bits: Linux use pages of 4KByte by default.

Altera PCIe Reconfig Driver

  • Let all configuration by default.

See «General connexion schematics» above for connexions.

Transceiver Reconfiguration Controller

  • Let all configuration by default.

See «General connexion schematics» above for connexions.

General connexion schematics

Fpga cycloneV qsys cvp connexion.png

Quartus configuration

To generate CvP files do :

  • Add the generated qsys project under the Quartus project.
    • Set as top level
  • In CycloneV : ... -> (right click) -> device ...
  • device and pin option button
  • Category:cvp Setting :
    • Configuration via protocol : core initialization and update
  • Run synthesis
    • configure pinout like described in FPGA pinout above.
  • Run place&route/assembly
  • File -> convert programming files ...
    • Programming file type: Raw binary file (.rbf)
    • add file : project.sof
    • Check create CvP files box.
    • Click generate
  • Two files are available in the project root:
    • project.periph.rbf: For FPGA IO, to be loader with U-Boot
    • project.core.rbf: For FPGA core, to be loader with PCIe under Linux

Linux Usage

See PCIe_fpga_load page to know how to load the bitstreams.

The bram of the project example can be accessed with the pci_debug tool on BAR0 at address 0x4000.

Interrupts

It's possible to transmit interrupts from the FPGA to the i.MX6 through the PCI express.

Qsys

To use it, in Qsys, simply connect your interrupt emitter on the Rxmirq conduit of the component Avalon-MM Cyclone V Hard IP for PCI Express as shown in screenshot above :

FPGA pcie interrupts.png

Two interrupts registers are available through the Cra:

Addr name
0x0040 PCI Express Interrupt Status
0x0050 PCI Express Interrupt Enable

To activate interruption, simply write '1' in register PCI Express Interrupt Enable.

For more information about the Avalon-mm Cyclone V interrupt see the datasheet (page 15).

Linux

An MSI interrupt example driver is available in the armadeus bsp, it can be found in directory :

target/demos/pcie_msi/

To compile it, simply type :

$ make

Insert it in your kernel with insmod :

$ insmod pcie_msi.ko

If interruption is enable in the FPGA-PCIe Ip (register 0x0050 in CRA) this message will be printed at each interrupt :

Note Note: To enable the pcie interrupt, pci_debug can be used this way :
$ pci_debug -s 01:00.0 -b0
PCI> c32 0x50 1 
PCI> q


msi 309

(if the irq number is 309).

For more informations about the PCIe MSI Interrupts see the kernel documentation.

FPGA pinout

FPGA pinout is the following :

# PCIE_RX
set_instance_assignment -name IO_STANDARD "1.5-V PCML" -to hip_serial_rx_in0
set_location_assignment PIN_AA2 -to hip_serial_rx_in0
set_location_assignment PIN_AA1 -to "hip_serial_rx_in0(n)"
# PCIE_TX
set_instance_assignment -name IO_STANDARD "1.5-V PCML" -to hip_serial_tx_out0
set_location_assignment PIN_Y4 -to hip_serial_tx_out0
set_location_assignment PIN_Y3 -to "hip_serial_tx_out0(n)"
# PCIE_CLK
set_instance_assignment -name IO_STANDARD "1.5-V PCML" -to refclk_clk
set_location_assignment PIN_V4 -to refclk_clk
set_location_assignment PIN_U4 -to "refclk_clk(n)"

# nperst
set_location_assignment PIN_R17 -to nperst
# npor
set_location_assignment PIN_R16 -to npor

Clocking without PCIe

PCIe_clk input can be used to clock the entire design without using the PCIe hard ip-core. But it can't be use directly, PLL must be instancied.

Page under construction... 

Construction.png Informations on this page are not guaranteed !!

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